Results 101 to 110 of about 42,028 (156)
Advanced Macromolecular Architectures via Inorganic Polymers. [PDF]
Macromol Rapid CommunAjvazi E +3 more
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N-alkylated polydithiocarbamates derived from thiocarbonyl fluoride as macro-photoiniferters for living 3D printing. [PDF]
Nat CommunRuan P, Xiang H, Yi W, Wang J.
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Limonene as a Renewable Platform Molecule: Chemical Modifications and Polymerization Strategies toward Advanced Materials. [PDF]
ACS Polym AuBertão MT, Vieira RP.
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The effect of di̇fferent preheati̇ng methods on the intrapulpal temperature of bulk-fi̇ll composi̇te resi̇ns. [PDF]
BMC Oral HealthAteş H, İşcan Yapar M.
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From Molecule to Material: How Support Changes Heterobimetallic Catalysts in Lactide Polymerization. [PDF]
Macromol Rapid CommunYang F +6 more
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Expanding the Chemical Space of Cyclic Polyphthalaldehyde via Post-Functionalization. [PDF]
Adv Sci (Weinh)He L +5 more
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Polymerization in living organisms
Chemical Society Reviews, 2023This review summarizes the progress of polymerization in living organisms. Based on different biological or cellular characteristics, versatile polymerization processes are designed and their corresponding therapeutic mechanisms are discussed.
Dan Wu +5 more
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Living carbocationic polymerization
Polymer Bulletin, 1989The living polymerization of isobutylene (IB) by the trans-2,5-diacetoxy-2,5-dimethyl-3-hexene (DiOAcDMH~)/BCla initiating system in 1,2-dichloroethane (DCE) in the -30 to +21~ range has been investigate~. Well-dEfined tert-chlorine terminated polyisobutylenes (--CI-PIB-Cl-) have b-~n obtained at suitably low IB and DiQAcDMH~ concentrations in the -30 ~
M. Zsuga, R. Faust, J. P. Kennedy
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